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Literature DB >> 17693464

Rheological behavior of living cells is timescale-dependent.

Dimitrije Stamenović¹, Noah Rosenblatt, Martín Montoya-Zavala, Benjamin D Matthews, Shaohua Hu, Béla Suki, Ning Wang, Donald E Ingber.

Abstract

The dynamic mechanical behavior of living cells has been proposed to result from timescale-invariant processes governed by the soft glass rheology theory derived from soft matter physics. But this theory is based on experimental measurements over timescales that are shorter than those most relevant for cell growth and function. Here we report results measured over a wider range of timescales which demonstrate that rheological behaviors of living cells are not timescale-invariant. These findings demonstrate that although soft glass rheology appears to accurately predict certain cell mechanical behaviors, it is not a unified model of cell rheology under biologically relevant conditions and thus, alternative mechanisms need to be considered.

Mesh：

Year: 2007 PMID： 17693464 PMCID： PMC1989695 DOI： 10.1529/biophysj.107.116582

Source DB: PubMed Journal: Biophys J ISSN： 0006-3495 Impact factor: 4.033

17 in total

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Journal: Nat Mater Date: 2005-06-05 Impact factor: 43.841

5. The consensus mechanics of cultured mammalian cells.

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Journal: Proc Natl Acad Sci U S A Date: 2006-06-22 Impact factor: 11.205

6. Linearity and time-scale invariance of the creep function in living cells.

Authors: G Lenormand; E Millet; B Fabry; J P Butler; J J Fredberg
Journal: J R Soc Interface Date: 2004-11-22 Impact factor: 4.118

7. Novel dynamic rheological behavior of individual focal adhesions measured within single cells using electromagnetic pulling cytometry.

Authors: Darryl R Overby; Benjamin D Matthews; Eben Alsberg; Donald E Ingber
Journal: Acta Biomater Date: 2005-03-31 Impact factor: 8.947

8. The mechanical properties of hydrated intermediate filaments: insights from hagfish slime threads.

Authors: Douglas S Fudge; Kenn H Gardner; V Trevor Forsyth; Christian Riekel; John M Gosline
Journal: Biophys J Date: 2003-09 Impact factor: 4.033

9. Fast and slow dynamics of the cytoskeleton.

Authors: Linhong Deng; Xavier Trepat; James P Butler; Emil Millet; Kathleen G Morgan; David A Weitz; Jeffrey J Fredberg
Journal: Nat Mater Date: 2006-07-09 Impact factor: 43.841

10. Nonlinearity and harmonic distortion of dog lungs measured by low-frequency forced oscillations.

Authors: B Suki; Z Hantos; B Daróczy; G Alkaysi; S Nagy
Journal: J Appl Physiol (1985) Date: 1991-07

28 in total

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2. An historical perspective on cell mechanics.

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3. Quantifying cell-to-cell variation in power-law rheology.

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4. Fractional order models of viscoelasticity as an alternative in the analysis of red blood cell (RBC) membrane mechanics.

Authors: Damian Craiem; Richard L Magin
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